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Ying Yang
Researcher at University of Lincoln
Publications - 4
Citations - 330
Ying Yang is an academic researcher from University of Lincoln. The author has contributed to research in topics: Arabidopsis & Gene. The author has an hindex of 3, co-authored 4 publications receiving 195 citations. Previous affiliations of Ying Yang include University of East Anglia & Norwich Research Park.
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Journal ArticleDOI
Diverse NLR immune receptors activate defence via the RPW8-NLR NRG1.
Baptiste Castel,Pok-Man Ngou,Volkan Cevik,Volkan Cevik,Amey Redkar,Amey Redkar,Dae-Sung Kim,Dae-Sung Kim,Ying Yang,Ying Yang,Pingtao Ding,Jonathan D. G. Jones +11 more
TL;DR: NRG1 is required for full TIR-NLR function and contributes to the signalling of some CC-NLRs, and it is proposed that some NLRs signal via NRG1 only, some via ADR1 only and some via both or neither.
Journal ArticleDOI
Optimization of T-DNA architecture for Cas9-mediated mutagenesis in Arabidopsis.
Baptiste Castel,Laurence Tomlinson,Federica Locci,Federica Locci,Ying Yang,Ying Yang,Jonathan D. G. Jones +6 more
TL;DR: A systematic comparison of components and T-DNA architectures for CRISPR-mediated gene editing in Arabidopsis, testing multiple promoters, terminators, sgRNA backbones and Cas9 alleles, identified a T- DNA architecture that usually results in stable mutations in the first generation after transformation.
Journal ArticleDOI
Using CRISPR/Cas9 genome editing in tomato to create a gibberellin-responsive dominant dwarf DELLA allele.
Laurence Tomlinson,Ying Yang,Ryan J. Emenecker,Matthew Smoker,Jodie Taylor,Sara Perkins,Justine Smith,Dan MacLean,Neil E. Olszewski,Jonathan D. G. Jones +9 more
TL;DR: The tomato PROCERA gene encodes a DELLA protein, and loss‐of‐function mutations derepress growth, and a dominant dwarf mutation is recovered that carries a deletion of one amino acid in the DELLa domain.
Posted ContentDOI
Optimization of T-DNA architecture for Cas9-mediated mutagenesis in Arabidopsis
TL;DR: A systematic comparison of components and T-DNA architectures for CRISPR-mediated gene editing in Arabidopsis, testing multiple promoters, terminators, sgRNA backbones and Cas9 alleles, identified a T- DNA architecture that usually results in stable mutations in the first generation after transformation.